The analysis of information coding in neurons requires methods that measure different properties of neuronal signals. In this paper we review the recently proposed measure of randomness and compare it to the coefficient of variation, which is the frequently employed measure of variability of spiking neuronal activity. We focus on the problem of the spontaneous activity of neurons, and we hypothetize that under defined conditions, spontaneous activity is more random than evoked activity. This hypothesis is supported by contrasting variability and randomness obtained from experimental recordings of olfactory receptor neurons in rats., L. Košťál, P. Lánský., and Obsahuje biblografii a biblografické odkazy
Transient receptor potential vanilloid 1 (TRPV1) receptor is a nonselective cation channel activated by capsaicin, a pungent substance from chili peppers. It is considered to act as an integrator of various physical and chemical nociceptive stimuli, as it can be gated by noxious heat (>43ºC), low pH (protons) and also by recently described endogenous lipids. The structure and function of TRPV1 receptors was vigorously studied, especially since its cloning in 1997. However, most of the research was pointed towards the role of TRPV1 receptors in the peripheral tissues. Mounting evidence now suggests that TRPV1 receptors on the central branches of dorsal root ganglion neurons in the spinal cord may play an important role in modulation of pain and nociceptive transmission. The aim of this short review was to summarize the knowledge about TRPV1 receptors in the spinal cord dorsal horn, preferentially from morphological and electrophysiological studies on spinal cord slices and from in vivo experiments., D. Špicarová, J. Paleček., and Obsahuje bibliografii a bibliografické odkazy
Epileptic afterdischarges (ADs) elicited by electrical stimulation of sensorimotor cortical area were used as a model to study the role of neurotransmitter systems in cortical seizures in three age groups of developing rats. Drugs augmenting inhibition mediated by GABAA receptors were found to suppress ADs in all age groups, their activity was usually more marked in younger than in 25-day-old rat pups. Drugs potentiating GABAB receptors exhibit lower efficacy and more complicated developmental profile than GABAA-ergic drugs. Effects of an antagonist of GABAB receptor – marked prolongation of ADs in all three age groups – suggest an important role of GABAB receptors in arrest of cortical seizures. Drugs affecting glutamate receptors exhibit variable effects, usually better expressed in older animals than in 12-day-old ones. No specific role for ionotropic as well as metabotropic glutamate receptors could be predicted. Activation of adenosinergic inhibitory modulatory system also exhibited anticonvulsant action in the present model. All three neurotransmitter systems probably participate in mechanisms of generation, maintenance and arrest of cortical seizures., P. Mareš, H. Kubová., and Obsahuje bibliografii a bibliografické odkazy
Stať se snaží analyzovat myšlenky málo známého rukopisu Sigmunda Freuda z roku 1895, v němž usiloval o nalezení biologických základů lidské psychiky. Tato práce je pozoruhodná ze dvou důvodů. Jednak představuje úvahy, které se výrazně odlišují od toho, co je pro Freuda v oblasti psychologie tak typické. Freud se zde, až na výjimky, nezabývá psychoanalýzou či studiemi o hysterii, nýbrž popisuje, co by mohlo být základem těchto psychologických jevů na neurofyziologické úrovni. Druhým pozoruhodným faktem je, že tento manuskript byl pozapomenut až do poloviny 20. století, kdy byl vytištěn pod názvem Projekt vědecké psychologie. A jak je známo, neurofyziologická studia lidské mysli spojená s analýzou kognitivních funkcí se v rigorózní podobě objevují až na počátku 60. let. Stať se proto pokouší ukázat základní principy Projektu a naznačit, v čem byl Freud inspirativním průkopníkem moderních neurofyziologických přístupů k lidské mysli., This paper focuses on Sigmund Freud’s manuscript that he wrote in 1895 as a series of letters seeking for biological foundations of human mind. Th is work significantly differs from what is so typical for Freud as a psychologist. With few exceptions, Freud is not engaged here with psychoanalysis and studies on hysteria, but describes what could be the basis of psychological phenomena at neurophysiological level. Another remarkable fact is that this manuscript was forgotten until the mid-twentieth century when it was published under the title Project for Scientific Psychology. And as we know, neurophysiological studies as rigorous studies of the human mind associated with the analysis of cognitive functions appeared first at the beginning of 60’s. The article therefore attempts to show the basic principles of the Project as well as to outline some of the issues that connect Freud to contemporary ideas in neurophysiology of human mind., and Michal Polák.